A recording device has: a recording head configured to perform recording on a medium; a medium storage below the recording head configured to store the medium to be recoded; a supply path comprising a first curved supply path curved so as to be convex upward and transporting the medium fed out of the medium storage in a reversed direction via the first curved supply path; and a reversing path comprising a second curved path curved so as to be convex downward and transporting the recorded medium into a direction including a vertically upward component via second curved path from a direction including a vertically downward component; wherein the supply path joins the reversing path, and the first curved path and the second curved path overlap when viewed horizontally.

System for providing marked containers comprising a computerised control system storing at least one unique identifier for each container, to be applied to a respective container, a printing unit comprising an ink delivery station, operatively connected with said computerised control system, able to print said identifier on each container, comprising a printing head filled with ink and having a plurality of nozzles configured for spraying said ink on an external surface of each container, displacement means able to perform a relative rotation, translation or rotary translation between each container and the printing head during the printing of the identifier on the container, said displacement means being operatively connected with said computerised control system.

A printer for outputting a printed product includes: a print head for printing on a print medium moving in a longitudinal direction, the print medium including a plurality of separate or separable labels detachably arranged on a carrier along the longitudinal direction; and a material interface for outputting the print medium printed by the printer as a printed product, the material interface including a dispensing edge and a support, which deflect the carrier over the dispensing edge and the support downstream of the print head in the longitudinal direction. The dispensing edge is arranged relative to the support in a first position to induce a detaching deflection of the carrier for detaching the respective label. The dispensing edge and the support are arranged in a second position relative to each other to induce an entraining deflection for entraining the respective label on the carrier.

A thermal treatment unit for a printer is mountable on a carriage that moves across a printing medium. The thermal treatment unit comprises an emitter element to emit radiation towards the printing medium to thermally treat the printing medium, wherein the thermal treatment unit varies a radiation power output of the emitter element in terms of a spatial position of the carriage along a width direction of the printing medium.

The ratios (Wp1/Wm1, Wp2/Wm2) of the pattern widths Wp1, Wp2 to the paper widths Wm1, Wm2 are obtained, respectively, after the first drying and after the second drying (Step S109). Then, in accordance with these ratios, a range (in other words, the width) in which the back print image G2 is to be printed is adjusted in the width direction Aw (Step S204). As a result, when the double-sided printing is performed on the continuous form paper M by performing drying every time when the image is printed on each of the surfaces Ma, Mb of the continuous form paper M, it is possible to suppress the difference in the ratios of the widths of the images G1, G2 to the width of the continuous form paper M between the surfaces Ma and Mb of the continuous form paper M.

A raster image conversion device is inputted with printing data and converts this printing data into raster image data to be outputted to a printing device. A storage unit stores printing environment data stipulating conditions for converting the printing data into the raster image data. An operating unit sets or edits the printing environment data. A conversion processing unit converts the printing data into the raster image data, based on the printing environment data. The printing environment data includes printing template information having a plurality of printing slots. The operating unit comprises an operating mode enabling the printing template information to be generated or edited. The conversion processing unit is inputted with or creates printing data made up of a plurality of pages, and, based on the printing template information, allocates a printing position and printing range of each page of the printing data to the printing slots.

A device cures a UV-curable fluid, such as offset or inkjet printing ink, on a substrate by way of an emitter. The emitter includes at least two flash lamps which are disposed in a row. This provides a cost-efficient way of evenly and homogeneously curing UV-curable printing fluids at low environmental impact. There is also described a printing machine with a device for curing UV-curable printing ink.

A heating device includes a holder, a receiver, a heating unit, a vertical mover, and circuitry. The holder holds a heating target object. The receiver removably holds the holder. The heating unit heats the heating target object. The vertical mover moves at least one of the receiver and the heating unit vertically relative to each other, between a non-contact heating position and a contact heating position. The circuitry causes the vertical mover to move the at least one of the receiver and the heating unit to the non-contact position, causes the heating unit to heat the heating target object in a non-contact state, causes the vertical mover to move the at least one of the receiver and the heating unit to the contact heating position, and causes the heating unit to heat the heating target object in a contact state.

In an image forming apparatus, a sub-scanning carriage moves a recording medium in a conveyance direction. A first carriage and a second carriage move in a main scanning direction and discharge a liquid and another liquid onto the recording medium to print a first image and a second image on the recording medium, respectively. Circuitry executes a first print sequence and a second print sequence. Further, the circuitry calculates a drying time of the liquid to form the first image by the first carriage, determines whether to execute the second print sequence based on the drying time, causes the first carriage and the second carriage to execute the second print sequence when the circuitry determines to execute the second print sequence, and causes the first carriage and the second carriage to execute the first print sequence when the circuitry determines not to execute the second print sequence.

A medium drying device that dries a liquid applied to a medium includes a front surface portion in contact with the medium at a first surface, a heat source unit provided on a second face side, a rear surface portion provided at a position opposing the second face with the heat source unit therebetween, a side surface portion disposed at a position opposing the heat source unit in a direction intersecting both the front surface portion and the rear surface portion, and a heat insulating material. The heat source unit opposes the second face without the heat insulating material therebetween, and the heat insulating material is disposed at a position opposing the rear surface portion and the heat source unit.